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(function ($) {
$.extend(true, window, {
Slick: {
Data: {
DataView: DataView,
Aggregators: {
Avg: AvgAggregator,
Min: MinAggregator,
Max: MaxAggregator,
Sum: SumAggregator
}
}
}
});
/***
* A sample Model implementation.
* Provides a filtered view of the underlying data.
*
* Relies on the data item having an "id" property uniquely identifying it.
*/
function DataView(options) {
var self = this;
var defaults = {
groupItemMetadataProvider: null,
inlineFilters: false
};
// private
var idProperty = "id"; // property holding a unique row id
var items = []; // data by index
var rows = []; // data by row
var idxById = {}; // indexes by id
var rowsById = null; // rows by id; lazy-calculated
var filter = null; // filter function
var updated = null; // updated item ids
var suspend = false; // suspends the recalculation
var sortAsc = true;
var fastSortField;
var sortComparer;
var refreshHints = {};
var prevRefreshHints = {};
var filterArgs;
var filteredItems = [];
var compiledFilter;
var compiledFilterWithCaching;
var filterCache = [];
// grouping
var groupingInfoDefaults = {
getter: null,
formatter: null,
comparer: function(a, b) {
return (a.value === b.value ? 0 :
(a.value > b.value ? 1 : -1)
);
},
predefinedValues: [],
aggregators: [],
aggregateEmpty: false,
aggregateCollapsed: false,
aggregateChildGroups: false,
collapsed: false,
displayTotalsRow: true,
lazyTotalsCalculation: false
};
var groupingInfos = [];
var groups = [];
var toggledGroupsByLevel = [];
var groupingDelimiter = ':|:';
var pagesize = 0;
var pagenum = 0;
var totalRows = 0;
// events
var onRowCountChanged = new Slick.Event();
var onRowsChanged = new Slick.Event();
var onPagingInfoChanged = new Slick.Event();
options = $.extend(true, {}, defaults, options);
function beginUpdate() {
suspend = true;
}
function endUpdate() {
suspend = false;
refresh();
}
function setRefreshHints(hints) {
refreshHints = hints;
}
function setFilterArgs(args) {
filterArgs = args;
}
function updateIdxById(startingIndex) {
startingIndex = startingIndex || 0;
var id;
for (var i = startingIndex, l = items.length; i < l; i++) {
id = items[i][idProperty];
if (id === undefined) {
throw new Error("Each data element must implement a unique 'id' property");
}
idxById[id] = i;
}
}
function ensureIdUniqueness() {
var id;
for (var i = 0, l = items.length; i < l; i++) {
id = items[i][idProperty];
if (id === undefined || idxById[id] !== i) {
throw new Error("Each data element must implement a unique 'id' property");
}
}
}
function getItems() {
return items;
}
function setItems(data, objectIdProperty) {
if (objectIdProperty !== undefined) {
idProperty = objectIdProperty;
}
items = filteredItems = data;
idxById = {};
updateIdxById();
ensureIdUniqueness();
refresh();
}
function setPagingOptions(args) {
if (args.pageSize != undefined) {
pagesize = args.pageSize;
pagenum = pagesize ? Math.min(pagenum, Math.max(0, Math.ceil(totalRows / pagesize) - 1)) : 0;
}
if (args.pageNum != undefined) {
pagenum = Math.min(args.pageNum, Math.max(0, Math.ceil(totalRows / pagesize) - 1));
}
onPagingInfoChanged.notify(getPagingInfo(), null, self);
refresh();
}
function getPagingInfo() {
var totalPages = pagesize ? Math.max(1, Math.ceil(totalRows / pagesize)) : 1;
return {pageSize: pagesize, pageNum: pagenum, totalRows: totalRows, totalPages: totalPages, dataView: self};
}
function sort(comparer, ascending) {
sortAsc = ascending;
sortComparer = comparer;
fastSortField = null;
if (ascending === false) {
items.reverse();
}
items.sort(comparer);
if (ascending === false) {
items.reverse();
}
idxById = {};
updateIdxById();
refresh();
}
/***
* Provides a workaround for the extremely slow sorting in IE.
* Does a [lexicographic] sort on a give column by temporarily overriding Object.prototype.toString
* to return the value of that field and then doing a native Array.sort().
*/
function fastSort(field, ascending) {
sortAsc = ascending;
fastSortField = field;
sortComparer = null;
var oldToString = Object.prototype.toString;
Object.prototype.toString = (typeof field == "function") ? field : function () {
return this[field]
};
// an extra reversal for descending sort keeps the sort stable
// (assuming a stable native sort implementation, which isn't true in some cases)
if (ascending === false) {
items.reverse();
}
items.sort();
Object.prototype.toString = oldToString;
if (ascending === false) {
items.reverse();
}
idxById = {};
updateIdxById();
refresh();
}
function reSort() {
if (sortComparer) {
sort(sortComparer, sortAsc);
} else if (fastSortField) {
fastSort(fastSortField, sortAsc);
}
}
function getFilteredItems(){
return filteredItems;
}
function getFilter(){
return filter;
}
function setFilter(filterFn) {
filter = filterFn;
if (options.inlineFilters) {
compiledFilter = compileFilter();
compiledFilterWithCaching = compileFilterWithCaching();
}
refresh();
}
function getGrouping() {
return groupingInfos;
}
function setGrouping(groupingInfo) {
if (!options.groupItemMetadataProvider) {
options.groupItemMetadataProvider = new Slick.Data.GroupItemMetadataProvider();
}
groups = [];
toggledGroupsByLevel = [];
groupingInfo = groupingInfo || [];
groupingInfos = (groupingInfo instanceof Array) ? groupingInfo : [groupingInfo];
for (var i = 0; i < groupingInfos.length; i++) {
var gi = groupingInfos[i] = $.extend(true, {}, groupingInfoDefaults, groupingInfos[i]);
gi.getterIsAFn = typeof gi.getter === "function";
// pre-compile accumulator loops
gi.compiledAccumulators = [];
var idx = gi.aggregators.length;
while (idx--) {
gi.compiledAccumulators[idx] = compileAccumulatorLoop(gi.aggregators[idx]);
}
toggledGroupsByLevel[i] = {};
}
refresh();
}
/**
* @deprecated Please use {@link setGrouping}.
*/
function groupBy(valueGetter, valueFormatter, sortComparer) {
if (valueGetter == null) {
setGrouping([]);
return;
}
setGrouping({
getter: valueGetter,
formatter: valueFormatter,
comparer: sortComparer
});
}
/**
* @deprecated Please use {@link setGrouping}.
*/
function setAggregators(groupAggregators, includeCollapsed) {
if (!groupingInfos.length) {
throw new Error("At least one grouping must be specified before calling setAggregators().");
}
groupingInfos[0].aggregators = groupAggregators;
groupingInfos[0].aggregateCollapsed = includeCollapsed;
setGrouping(groupingInfos);
}
function getItemByIdx(i) {
return items[i];
}
function getIdxById(id) {
return idxById[id];
}
function ensureRowsByIdCache() {
if (!rowsById) {
rowsById = {};
for (var i = 0, l = rows.length; i < l; i++) {
rowsById[rows[i][idProperty]] = i;
}
}
}
function getRowByItem(item) {
ensureRowsByIdCache();
return rowsById[item[idProperty]];
}
function getRowById(id) {
ensureRowsByIdCache();
return rowsById[id];
}
function getItemById(id) {
return items[idxById[id]];
}
function mapItemsToRows(itemArray) {
var rows = [];
ensureRowsByIdCache();
for (var i = 0, l = itemArray.length; i < l; i++) {
var row = rowsById[itemArray[i][idProperty]];
if (row != null) {
rows[rows.length] = row;
}
}
return rows;
}
function mapIdsToRows(idArray) {
var rows = [];
ensureRowsByIdCache();
for (var i = 0, l = idArray.length; i < l; i++) {
var row = rowsById[idArray[i]];
if (row != null) {
rows[rows.length] = row;
}
}
return rows;
}
function mapRowsToIds(rowArray) {
var ids = [];
for (var i = 0, l = rowArray.length; i < l; i++) {
if (rowArray[i] < rows.length) {
ids[ids.length] = rows[rowArray[i]][idProperty];
}
}
return ids;
}
function updateItem(id, item) {
if (idxById[id] === undefined || id !== item[idProperty]) {
throw new Error("Invalid or non-matching id");
}
items[idxById[id]] = item;
if (!updated) {
updated = {};
}
updated[id] = true;
refresh();
}
function insertItem(insertBefore, item) {
items.splice(insertBefore, 0, item);
updateIdxById(insertBefore);
refresh();
}
function addItem(item) {
items.push(item);
updateIdxById(items.length - 1);
refresh();
}
function deleteItem(id) {
var idx = idxById[id];
if (idx === undefined) {
throw new Error("Invalid id");
}
delete idxById[id];
items.splice(idx, 1);
updateIdxById(idx);
refresh();
}
function sortedAddItem(item) {
if(!sortComparer) {
throw new Error("sortedAddItem() requires a sort comparer, use sort()");
}
insertItem(sortedIndex(item), item);
}
function sortedUpdateItem(id, item) {
if (idxById[id] === undefined || id !== item[idProperty]) {
throw new Error("Invalid or non-matching id " + idxById[id]);
}
if(!sortComparer) {
throw new Error("sortedUpdateItem() requires a sort comparer, use sort()");
}
var oldItem = getItemById(id);
if(sortComparer(oldItem, item) !== 0) {
// item affects sorting -> must use sorted add
deleteItem(id);
sortedAddItem(item);
}
else { // update does not affect sorting -> regular update works fine
updateItem(id, item);
}
}
function sortedIndex(searchItem) {
var low = 0, high = items.length;
while (low < high) {
var mid = low + high >>> 1;
if (sortComparer(items[mid], searchItem) === -1) {
low = mid + 1;
}
else {
high = mid;
}
}
return low;
}
function getLength() {
return rows.length;
}
function getItem(i) {
var item = rows[i];
// if this is a group row, make sure totals are calculated and update the title
if (item && item.__group && item.totals && !item.totals.initialized) {
var gi = groupingInfos[item.level];
if (!gi.displayTotalsRow) {
calculateTotals(item.totals);
item.title = gi.formatter ? gi.formatter(item) : item.value;
}
}
// if this is a totals row, make sure it's calculated
else if (item && item.__groupTotals && !item.initialized) {
calculateTotals(item);
}
return item;
}
function getItemMetadata(i) {
var item = rows[i];
if (item === undefined) {
return null;
}
// overrides for grouping rows
if (item.__group) {
return options.groupItemMetadataProvider.getGroupRowMetadata(item);
}
// overrides for totals rows
if (item.__groupTotals) {
return options.groupItemMetadataProvider.getTotalsRowMetadata(item);
}
return null;
}
function expandCollapseAllGroups(level, collapse) {
if (level == null) {
for (var i = 0; i < groupingInfos.length; i++) {
toggledGroupsByLevel[i] = {};
groupingInfos[i].collapsed = collapse;
}
} else {
toggledGroupsByLevel[level] = {};
groupingInfos[level].collapsed = collapse;
}
refresh();
}
/**
* @param level {Number} Optional level to collapse. If not specified, applies to all levels.
*/
function collapseAllGroups(level) {
expandCollapseAllGroups(level, true);
}
/**
* @param level {Number} Optional level to expand. If not specified, applies to all levels.
*/
function expandAllGroups(level) {
expandCollapseAllGroups(level, false);
}
function expandCollapseGroup(level, groupingKey, collapse) {
toggledGroupsByLevel[level][groupingKey] = groupingInfos[level].collapsed ^ collapse;
refresh();
}
/**
* @param varArgs Either a Slick.Group's "groupingKey" property, or a
* variable argument list of grouping values denoting a unique path to the row. For
* example, calling collapseGroup('high', '10%') will collapse the '10%' subgroup of
* the 'high' group.
*/
function collapseGroup(varArgs) {
var args = Array.prototype.slice.call(arguments);
var arg0 = args[0];
if (args.length == 1 && arg0.indexOf(groupingDelimiter) != -1) {
expandCollapseGroup(arg0.split(groupingDelimiter).length - 1, arg0, true);
} else {
expandCollapseGroup(args.length - 1, args.join(groupingDelimiter), true);
}
}
/**
* @param varArgs Either a Slick.Group's "groupingKey" property, or a
* variable argument list of grouping values denoting a unique path to the row. For
* example, calling expandGroup('high', '10%') will expand the '10%' subgroup of
* the 'high' group.
*/
function expandGroup(varArgs) {
var args = Array.prototype.slice.call(arguments);
var arg0 = args[0];
if (args.length == 1 && arg0.indexOf(groupingDelimiter) != -1) {
expandCollapseGroup(arg0.split(groupingDelimiter).length - 1, arg0, false);
} else {
expandCollapseGroup(args.length - 1, args.join(groupingDelimiter), false);
}
}
function getGroups() {
return groups;
}
function extractGroups(rows, parentGroup) {
var group;
var val;
var groups = [];
var groupsByVal = {};
var r;
var level = parentGroup ? parentGroup.level + 1 : 0;
var gi = groupingInfos[level];
for (var i = 0, l = gi.predefinedValues.length; i < l; i++) {
val = gi.predefinedValues[i];
group = groupsByVal[val];
if (!group) {
group = new Slick.Group();
group.value = val;
group.level = level;
group.groupingKey = (parentGroup ? parentGroup.groupingKey + groupingDelimiter : '') + val;
groups[groups.length] = group;
groupsByVal[val] = group;
}
}
for (var i = 0, l = rows.length; i < l; i++) {
r = rows[i];
val = gi.getterIsAFn ? gi.getter(r) : r[gi.getter];
group = groupsByVal[val];
if (!group) {
group = new Slick.Group();
group.value = val;
group.level = level;
group.groupingKey = (parentGroup ? parentGroup.groupingKey + groupingDelimiter : '') + val;
groups[groups.length] = group;
groupsByVal[val] = group;
}
group.rows[group.count++] = r;
}
if (level < groupingInfos.length - 1) {
for (var i = 0; i < groups.length; i++) {
group = groups[i];
group.groups = extractGroups(group.rows, group);
}
}
groups.sort(groupingInfos[level].comparer);
return groups;
}
function calculateTotals(totals) {
var group = totals.group;
var gi = groupingInfos[group.level];
var isLeafLevel = (group.level == groupingInfos.length);
var agg, idx = gi.aggregators.length;
if (!isLeafLevel && gi.aggregateChildGroups) {
// make sure all the subgroups are calculated
var i = group.groups.length;
while (i--) {
if (!group.groups[i].totals.initialized) {
calculateTotals(group.groups[i].totals);
}
}
}
while (idx--) {
agg = gi.aggregators[idx];
agg.init();
if (!isLeafLevel && gi.aggregateChildGroups) {
gi.compiledAccumulators[idx].call(agg, group.groups);
} else {
gi.compiledAccumulators[idx].call(agg, group.rows);
}
agg.storeResult(totals);
}
totals.initialized = true;
}
function addGroupTotals(group) {
var gi = groupingInfos[group.level];
var totals = new Slick.GroupTotals();
totals.group = group;
group.totals = totals;
if (!gi.lazyTotalsCalculation) {
calculateTotals(totals);
}
}
function addTotals(groups, level) {
level = level || 0;
var gi = groupingInfos[level];
var groupCollapsed = gi.collapsed;
var toggledGroups = toggledGroupsByLevel[level];
var idx = groups.length, g;
while (idx--) {
g = groups[idx];
if (g.collapsed && !gi.aggregateCollapsed) {
continue;
}
// Do a depth-first aggregation so that parent group aggregators can access subgroup totals.
if (g.groups) {
addTotals(g.groups, level + 1);
}
if (gi.aggregators.length && (
gi.aggregateEmpty || g.rows.length || (g.groups && g.groups.length))) {
addGroupTotals(g);
}
g.collapsed = groupCollapsed ^ toggledGroups[g.groupingKey];
g.title = gi.formatter ? gi.formatter(g) : g.value;
}
}
function flattenGroupedRows(groups, level) {
level = level || 0;
var gi = groupingInfos[level];
var groupedRows = [], rows, gl = 0, g;
for (var i = 0, l = groups.length; i < l; i++) {
g = groups[i];
groupedRows[gl++] = g;
if (!g.collapsed) {
rows = g.groups ? flattenGroupedRows(g.groups, level + 1) : g.rows;
for (var j = 0, jj = rows.length; j < jj; j++) {
groupedRows[gl++] = rows[j];
}
}
if (g.totals && gi.displayTotalsRow && (!g.collapsed || gi.aggregateCollapsed)) {
groupedRows[gl++] = g.totals;
}
}
return groupedRows;
}
function getFunctionInfo(fn) {
var fnRegex = /^function[^(]*\(([^)]*)\)\s*{([\s\S]*)}$/;
var matches = fn.toString().match(fnRegex);
return {
params: matches[1].split(","),
body: matches[2]
};
}
function compileAccumulatorLoop(aggregator) {
var accumulatorInfo = getFunctionInfo(aggregator.accumulate);
var fn = new Function(
"_items",
"for (var " + accumulatorInfo.params[0] + ", _i=0, _il=_items.length; _i<_il; _i++) {" +
accumulatorInfo.params[0] + " = _items[_i]; " +
accumulatorInfo.body +
"}"
);
fn.displayName = fn.name = "compiledAccumulatorLoop";
return fn;
}
function compileFilter() {
var filterInfo = getFunctionInfo(filter);
var filterPath1 = "{ continue _coreloop; }$1";
var filterPath2 = "{ _retval[_idx++] = $item$; continue _coreloop; }$1";
// make some allowances for minification - there's only so far we can go with RegEx
var filterBody = filterInfo.body
.replace(/return false\s*([;}]|\}|$)/gi, filterPath1)
.replace(/return!1([;}]|\}|$)/gi, filterPath1)
.replace(/return true\s*([;}]|\}|$)/gi, filterPath2)
.replace(/return!0([;}]|\}|$)/gi, filterPath2)
.replace(/return ([^;}]+?)\s*([;}]|$)/gi,
"{ if ($1) { _retval[_idx++] = $item$; }; continue _coreloop; }$2");
// This preserves the function template code after JS compression,
// so that replace() commands still work as expected.
var tpl = [
//"function(_items, _args) { ",
"var _retval = [], _idx = 0; ",
"var $item$, $args$ = _args; ",
"_coreloop: ",
"for (var _i = 0, _il = _items.length; _i < _il; _i++) { ",
"$item$ = _items[_i]; ",
"$filter$; ",
"} ",
"return _retval; "
//"}"
].join("");
tpl = tpl.replace(/\$filter\$/gi, filterBody);
tpl = tpl.replace(/\$item\$/gi, filterInfo.params[0]);
tpl = tpl.replace(/\$args\$/gi, filterInfo.params[1]);
var fn = new Function("_items,_args", tpl);
fn.displayName = fn.name = "compiledFilter";
return fn;
}
function compileFilterWithCaching() {
var filterInfo = getFunctionInfo(filter);
var filterPath1 = "{ continue _coreloop; }$1";
var filterPath2 = "{ _cache[_i] = true;_retval[_idx++] = $item$; continue _coreloop; }$1";
// make some allowances for minification - there's only so far we can go with RegEx
var filterBody = filterInfo.body
.replace(/return false\s*([;}]|\}|$)/gi, filterPath1)
.replace(/return!1([;}]|\}|$)/gi, filterPath1)
.replace(/return true\s*([;}]|\}|$)/gi, filterPath2)
.replace(/return!0([;}]|\}|$)/gi, filterPath2)
.replace(/return ([^;}]+?)\s*([;}]|$)/gi,
"{ if ((_cache[_i] = $1)) { _retval[_idx++] = $item$; }; continue _coreloop; }$2");
// This preserves the function template code after JS compression,
// so that replace() commands still work as expected.
var tpl = [
//"function(_items, _args, _cache) { ",
"var _retval = [], _idx = 0; ",
"var $item$, $args$ = _args; ",
"_coreloop: ",
"for (var _i = 0, _il = _items.length; _i < _il; _i++) { ",
"$item$ = _items[_i]; ",
"if (_cache[_i]) { ",
"_retval[_idx++] = $item$; ",
"continue _coreloop; ",
"} ",
"$filter$; ",
"} ",
"return _retval; "
//"}"
].join("");
tpl = tpl.replace(/\$filter\$/gi, filterBody);
tpl = tpl.replace(/\$item\$/gi, filterInfo.params[0]);
tpl = tpl.replace(/\$args\$/gi, filterInfo.params[1]);
var fn = new Function("_items,_args,_cache", tpl);
fn.displayName = fn.name = "compiledFilterWithCaching";
return fn;
}
function uncompiledFilter(items, args) {
var retval = [], idx = 0;
for (var i = 0, ii = items.length; i < ii; i++) {
if (filter(items[i], args)) {
retval[idx++] = items[i];
}
}
return retval;
}
function uncompiledFilterWithCaching(items, args, cache) {
var retval = [], idx = 0, item;
for (var i = 0, ii = items.length; i < ii; i++) {
item = items[i];
if (cache[i]) {
retval[idx++] = item;
} else if (filter(item, args)) {
retval[idx++] = item;
cache[i] = true;
}
}
return retval;
}
function getFilteredAndPagedItems(items) {
if (filter) {
var batchFilter = options.inlineFilters ? compiledFilter : uncompiledFilter;
var batchFilterWithCaching = options.inlineFilters ? compiledFilterWithCaching : uncompiledFilterWithCaching;
if (refreshHints.isFilterNarrowing) {
filteredItems = batchFilter(filteredItems, filterArgs);
} else if (refreshHints.isFilterExpanding) {
filteredItems = batchFilterWithCaching(items, filterArgs, filterCache);
} else if (!refreshHints.isFilterUnchanged) {
filteredItems = batchFilter(items, filterArgs);
}
} else {
// special case: if not filtering and not paging, the resulting
// rows collection needs to be a copy so that changes due to sort
// can be caught
filteredItems = pagesize ? items : items.concat();
}
// get the current page
var paged = filteredItems;
// if (pagesize) {
// if (filteredItems.length <= pagenum * pagesize) {
// if (filteredItems.length === 0) {
// pagenum = 0;
// } else {
// pagenum = Math.floor((filteredItems.length - 1) / pagesize);
// }
// }
// paged = filteredItems.slice(pagesize * pagenum, pagesize * pagenum + pagesize);
// } else {
// paged = filteredItems;
// }
return {totalRows: filteredItems.length, rows: paged};
}
function getRowDiffs(rows, newRows) {
var item, r, eitherIsNonData, diff = [];
var from = 0, to = newRows.length;
if (refreshHints && refreshHints.ignoreDiffsBefore) {
from = Math.max(0,
Math.min(newRows.length, refreshHints.ignoreDiffsBefore));
}
if (refreshHints && refreshHints.ignoreDiffsAfter) {
to = Math.min(newRows.length,
Math.max(0, refreshHints.ignoreDiffsAfter));
}
for (var i = from, rl = rows.length; i < to; i++) {
if (i >= rl) {
diff[diff.length] = i;
} else {
item = newRows[i];
r = rows[i];
if ((groupingInfos.length && (eitherIsNonData = (item.__nonDataRow) || (r.__nonDataRow)) &&
item.__group !== r.__group ||
item.__group && !item.equals(r))
|| (eitherIsNonData &&
// no good way to compare totals since they are arbitrary DTOs
// deep object comparison is pretty expensive
// always considering them 'dirty' seems easier for the time being
(item.__groupTotals || r.__groupTotals))
|| item[idProperty] != r[idProperty]
|| (updated && updated[item[idProperty]])
) {
diff[diff.length] = i;
}
}
}
return diff;
}
function recalc(_items) {
rowsById = null;
if (refreshHints.isFilterNarrowing != prevRefreshHints.isFilterNarrowing ||
refreshHints.isFilterExpanding != prevRefreshHints.isFilterExpanding) {
filterCache = [];
}
var filteredItems = getFilteredAndPagedItems(_items);
totalRows = filteredItems.totalRows;
if(_items.length > 0 && _items[0].dataSrc) {
totalRows = _items[0].dataSrc.getTotalRows();
}
var newRows = filteredItems.rows;
groups = [];
if (groupingInfos.length) {
groups = extractGroups(newRows);
if (groups.length) {
addTotals(groups);
newRows = flattenGroupedRows(groups);
}
}
var diff = getRowDiffs(rows, newRows);
rows = newRows;
return diff;
}
function refresh() {
if (suspend) {
return;
}
var countBefore = rows.length;
var totalRowsBefore = totalRows;
var diff = recalc(items, filter); // pass as direct refs to avoid closure perf hit
// if the current page is no longer valid, go to last page and recalc
// we suffer a performance penalty here, but the main loop (recalc) remains highly optimized
// if (pagesize && totalRows < pagenum * pagesize) {
// pagenum = Math.max(0, Math.ceil(totalRows / pagesize) - 1);
// diff = recalc(items, filter);
// }
updated = null;
prevRefreshHints = refreshHints;
refreshHints = {};
if (totalRowsBefore !== totalRows) {
onPagingInfoChanged.notify(getPagingInfo(), null, self);
}
if (countBefore !== rows.length) {
onRowCountChanged.notify({previous: countBefore, current: rows.length, dataView: self}, null, self);
}
//if (diff.length > 0) {
onRowsChanged.notify({rows: diff, dataView: self}, null, self);
//}
}
/***
* Wires the grid and the DataView together to keep row selection tied to item ids.
* This is useful since, without it, the grid only knows about rows, so if the items
* move around, the same rows stay selected instead of the selection moving along
* with the items.
*
* NOTE: This doesn't work with cell selection model.
*
* @param grid {Slick.Grid} The grid to sync selection with.
* @param preserveHidden {Boolean} Whether to keep selected items that go out of the
* view due to them getting filtered out.
* @param preserveHiddenOnSelectionChange {Boolean} Whether to keep selected items
* that are currently out of the view (see preserveHidden) as selected when selection
* changes.
* @return {Slick.Event} An event that notifies when an internal list of selected row ids
* changes. This is useful since, in combination with the above two options, it allows
* access to the full list selected row ids, and not just the ones visible to the grid.
* @method syncGridSelection
*/
function syncGridSelection(grid, preserveHidden, preserveHiddenOnSelectionChange) {
var self = this;
var inHandler;
var selectedRowIds = self.mapRowsToIds(grid.getSelectedRows());
var onSelectedRowIdsChanged = new Slick.Event();
function setSelectedRowIds(rowIds) {
if (selectedRowIds.join(",") == rowIds.join(",")) {
return;
}
selectedRowIds = rowIds;
onSelectedRowIdsChanged.notify({
"grid": grid,
"ids": selectedRowIds,
"dataView": self
}, new Slick.EventData(), self);
}
function update() {
if (selectedRowIds.length > 0) {
inHandler = true;
var selectedRows = self.mapIdsToRows(selectedRowIds);
if (!preserveHidden) {
setSelectedRowIds(self.mapRowsToIds(selectedRows));
}
grid.setSelectedRows(selectedRows);
inHandler = false;
}
}
grid.onSelectedRowsChanged.subscribe(function(e, args) {
if (inHandler) { return; }
var newSelectedRowIds = self.mapRowsToIds(grid.getSelectedRows());
if (!preserveHiddenOnSelectionChange || !grid.getOptions().multiSelect) {
setSelectedRowIds(newSelectedRowIds);
} else {
// keep the ones that are hidden
var existing = $.grep(selectedRowIds, function(id) { return self.getRowById(id) === undefined; });
// add the newly selected ones
setSelectedRowIds(existing.concat(newSelectedRowIds));
}
});
this.onRowsChanged.subscribe(update);
this.onRowCountChanged.subscribe(update);
return onSelectedRowIdsChanged;
}
function syncGridCellCssStyles(grid, key) {
var hashById;
var inHandler;
// since this method can be called after the cell styles have been set,
// get the existing ones right away
storeCellCssStyles(grid.getCellCssStyles(key));
function storeCellCssStyles(hash) {
hashById = {};
for (var row in hash) {
var id = rows[row][idProperty];
hashById[id] = hash[row];
}
}
function update() {
if (hashById) {
inHandler = true;
ensureRowsByIdCache();
var newHash = {};
for (var id in hashById) {
var row = rowsById[id];
if (row != undefined) {
newHash[row] = hashById[id];
}
}
grid.setCellCssStyles(key, newHash);
inHandler = false;
}
}
grid.onCellCssStylesChanged.subscribe(function(e, args) {
if (inHandler) { return; }
if (key != args.key) { return; }
if (args.hash) {
storeCellCssStyles(args.hash);
} else {
grid.onCellCssStylesChanged.unsubscribe(styleChanged);
self.onRowsChanged.unsubscribe(update);
self.onRowCountChanged.unsubscribe(update);
}
});
this.onRowsChanged.subscribe(update);
this.onRowCountChanged.subscribe(update);
}
$.extend(this, {
// methods
"beginUpdate": beginUpdate,
"endUpdate": endUpdate,
"setPagingOptions": setPagingOptions,
"getPagingInfo": getPagingInfo,
"getItems": getItems,
"setItems": setItems,
"setFilter": setFilter,
"getFilter": getFilter,
"getFilteredItems": getFilteredItems,
"sort": sort,
"fastSort": fastSort,
"reSort": reSort,
"setGrouping": setGrouping,
"getGrouping": getGrouping,
"groupBy": groupBy,
"setAggregators": setAggregators,
"collapseAllGroups": collapseAllGroups,
"expandAllGroups": expandAllGroups,
"collapseGroup": collapseGroup,
"expandGroup": expandGroup,
"getGroups": getGroups,
"getIdxById": getIdxById,
"getRowByItem": getRowByItem,
"getRowById": getRowById,
"getItemById": getItemById,
"getItemByIdx": getItemByIdx,
"mapItemsToRows": mapItemsToRows,
"mapRowsToIds": mapRowsToIds,
"mapIdsToRows": mapIdsToRows,
"setRefreshHints": setRefreshHints,
"setFilterArgs": setFilterArgs,
"refresh": refresh,
"updateItem": updateItem,
"insertItem": insertItem,
"addItem": addItem,
"deleteItem": deleteItem,
"sortedAddItem": sortedAddItem,
"sortedUpdateItem": sortedUpdateItem,
"syncGridSelection": syncGridSelection,
"syncGridCellCssStyles": syncGridCellCssStyles,
// data provider methods
"getLength": getLength,
"getItem": getItem,
"getItemMetadata": getItemMetadata,
// events
"onRowCountChanged": onRowCountChanged,
"onRowsChanged": onRowsChanged,
"onPagingInfoChanged": onPagingInfoChanged
});
}
function AvgAggregator(field) {
this.field_ = field;
this.init = function () {
this.count_ = 0;
this.nonNullCount_ = 0;
this.sum_ = 0;
};
this.accumulate = function (item) {
var val = item[this.field_];
this.count_++;
if (val != null && val !== "" && !isNaN(val)) {
this.nonNullCount_++;
this.sum_ += parseFloat(val);
}
};
this.storeResult = function (groupTotals) {
if (!groupTotals.avg) {
groupTotals.avg = {};
}
if (this.nonNullCount_ != 0) {
groupTotals.avg[this.field_] = this.sum_ / this.nonNullCount_;
}
};
}
function MinAggregator(field) {
this.field_ = field;
this.init = function () {
this.min_ = null;
};
this.accumulate = function (item) {
var val = item[this.field_];
if (val != null && val !== "" && !isNaN(val)) {
if (this.min_ == null || val < this.min_) {
this.min_ = val;
}
}
};
this.storeResult = function (groupTotals) {
if (!groupTotals.min) {
groupTotals.min = {};
}
groupTotals.min[this.field_] = this.min_;
}
}
function MaxAggregator(field) {
this.field_ = field;
this.init = function () {
this.max_ = null;
};
this.accumulate = function (item) {
var val = item[this.field_];
if (val != null && val !== "" && !isNaN(val)) {
if (this.max_ == null || val > this.max_) {
this.max_ = val;
}
}
};
this.storeResult = function (groupTotals) {
if (!groupTotals.max) {
groupTotals.max = {};
}
groupTotals.max[this.field_] = this.max_;
}
}
function SumAggregator(field) {
this.field_ = field;
this.init = function () {
this.sum_ = null;
};
this.accumulate = function (item) {
var val = item[this.field_];
if (val != null && val !== "" && !isNaN(val)) {
this.sum_ += parseFloat(val);
}
};
this.storeResult = function (groupTotals) {
if (!groupTotals.sum) {
groupTotals.sum = {};
}
groupTotals.sum[this.field_] = this.sum_;
}
}
// TODO: add more built-in aggregators
// TODO: merge common aggregators in one to prevent needles iterating
})(jQuery);